b9fc_cec8
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system only system where males ♂ have no fathers Z-W system females ♀ have two different kinds of chromosomes X-Y system males ♂ have two different kinds of chromosomes X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome MATb9fc_286f
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ have two different kinds of chromosomes Haplo-Diploid system there are no sex chromosomes X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Z-W system males ♂ have two of the same kind of chromosomes MATb9fc_ea33
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system unfertilized eggs develop into males ♂ X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete X-Y system females ♀ are homogametic and males ♂ are heterogametic Z-W system males ♂ have two homologous sex chromosomes MATb9fc_2c51
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system males ♂ only have one sex chromosome, while females ♀ have two X-Y system males ♂ have two different kinds of chromosomes Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome Z-W system females ♀ have two different kinds of chromosomes MATb9fc_64fc
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system sex of an offspring depends on which sex chromosome is contained with the female ♀ egg (ovum) X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm X-Y system females ♀ have two of the same kind of sex chromosome Haplo-Diploid system there are no sex chromosomes MATb9fc_53e6
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete Haplo-Diploid system found in insects, such as ants and bees Z-W system females ♀ have two different kinds of chromosomes X-Y system males ♂ have two different kinds of chromosomes MATb9fc_1bbe
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing Z-W system this system is the reverse of the system found in humans Haplo-Diploid system there are no sex chromosomes X-Y system females ♀ have two of the same kind of sex chromosome MATb9fc_f009
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system found in most birds, many reptiles, and some insects X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm X-Y system found in most mammals, as well as some insects including Drosophila Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome MATb9fc_e172
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one X-Y system females ♀ are homogametic and males ♂ are heterogametic Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_f30a
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome X-Y system found in most mammals, as well as some insects including Drosophila X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_c264
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ are heterogametic and females ♀ are homogametic X-O system males ♂ only have one sex chromosome, while females ♀ have two Z-W system only system where sex is determined by the female ♀ egg (ovum) Haplo-Diploid system there are no sex chromosomes MATb9fc_dc33
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ have two homologous sex chromosomes X-O system males ♂ only have one sex chromosome, while females ♀ have two X-Y system males ♂ have two different kinds of chromosomes Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome MATb9fc_2c48
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ are homogametic and males ♂ are heterogametic X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_fdf4
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system females ♀ are heterogametic and males ♂ are homogametic X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete Haplo-Diploid system unfertilized eggs develop into males ♂ X-Y system found in most mammals, as well as some insects including Drosophila MATb9fc_9647
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ are homogametic and females ♀ are heterogametic X-O system males ♂ only have one sex chromosome, while females ♀ have two X-Y system sex of an offspring depends on which of two sex chromosomes are contained with the male ♂ sperm Haplo-Diploid system only system where males ♂ have no fathers MATb9fc_e1c9
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system found in most birds, many reptiles, and some insects X-Y system females ♀ have two of the same kind of sex chromosome Haplo-Diploid system there are no sex chromosomes X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing MATb9fc_f334
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome X-Y system females ♀ are homogametic and males ♂ are heterogametic Haplo-Diploid system found in insects, such as ants and bees Z-W system males ♂ have two homologous sex chromosomes MATb9fc_9aa0
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system only system where sex is determined by the female ♀ egg (ovum) X-O system males ♂ only have one sex chromosome, while females ♀ have two Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-Y system sex is determined by which chromosome is contained in the male ♂ sperm cell MATb9fc_466d
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ have two of the same kind of sex chromosome Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers Z-W system found in most birds, many reptiles, and some insects X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete MATb9fc_a4b6
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-O system found in a number of insects, including the grasshoppers, cockroaches, and crickets X-Y system females ♀ have two of the same kind of sex chromosome Z-W system males ♂ are homogametic and females ♀ are heterogametic MATb9fc_6190
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ are homogametic and males ♂ are heterogametic Z-W system males ♂ have two of the same kind of chromosomes Haplo-Diploid system unfertilized eggs develop into males ♂ X-O system male ♂ sperm normally contain either one sex chromosome or no sex chromosomes at all MATb9fc_0049
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system sex of an offspring depends on which of two sex chromosomes are contained with the male ♂ sperm X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers Z-W system females ♀ have two different kinds of chromosomes MATb9fc_7d32
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ have two of the same kind of sex chromosome X-O system males ♂ are diploid, but only have one sex chromosome Z-W system females ♀ are heterogametic and males ♂ are homogametic Haplo-Diploid system found in insects, such as ants and bees MATb9fc_4639
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ are homogametic and females ♀ are heterogametic X-Y system females ♀ are homogametic and males ♂ are heterogametic Haplo-Diploid system unfertilized eggs develop into males ♂ X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome MATb9fc_e0ec
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system found in insects, such as ants and bees Z-W system males ♂ have two homologous sex chromosomes X-Y system males ♂ are heterogametic and females ♀ are homogametic X-O system male ♂ sperm normally contain either one sex chromosome or no sex chromosomes at all MATb9fc_555c
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete Z-W system females ♀ are heterogametic and males ♂ are homogametic X-Y system males ♂ have two different kinds of chromosomes MATb9fc_732a
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ have two of the same kind of sex chromosome X-O system males ♂ are diploid, but only have one sex chromosome Haplo-Diploid system only system where males ♂ have no fathers Z-W system found in most birds, many reptiles, and some insects MATb9fc_5fb8
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system there are no sex chromosomes X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete Z-W system females ♀ are heterogametic and males ♂ are homogametic X-Y system males ♂ have two different kinds of chromosomes MATb9fc_9a47
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ are homogametic and males ♂ are heterogametic Z-W system only system where sex is determined by the female ♀ egg (ovum) Haplo-Diploid system there are no sex chromosomes X-O system male ♂ sperm normally contain either one sex chromosome or no sex chromosomes at all MATb9fc_9b7a
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system found in insects, such as ants and bees X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete X-Y system found in most mammals, as well as some insects including Drosophila Z-W system sex of an offspring depends on which sex chromosome is contained with the female ♀ egg (ovum) MATb9fc_febd
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ are heterogametic and females ♀ are homogametic X-O system male ♂ sperm normally contain either one sex chromosome or no sex chromosomes at all Z-W system females ♀ have two different kinds of chromosomes Haplo-Diploid system only system where males ♂ have no fathers MATb9fc_69e5
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing Z-W system this system is the reverse of the system found in humans X-Y system found in most mammals, as well as some insects including Drosophila Haplo-Diploid system there are no sex chromosomes MATb9fc_6020
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system only system where sex is determined by the female ♀ egg (ovum) X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing X-Y system males ♂ have two different kinds of chromosomes Haplo-Diploid system found in insects, such as ants and bees MATb9fc_8556
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system found in most mammals, as well as some insects including Drosophila Haplo-Diploid system only system where males ♂ have no fathers X-O system male ♂ sperm normally contain either one sex chromosome or no sex chromosomes at all Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_836a
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system unfertilized eggs develop into males ♂ X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing Z-W system this system is the reverse of the system found in humans X-Y system males ♂ are heterogametic and females ♀ are homogametic MATb9fc_36ea
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one Z-W system males ♂ are homogametic and females ♀ are heterogametic Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome X-Y system females ♀ have two of the same kind of sex chromosome MATb9fc_688d
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ have two different kinds of chromosomes Z-W system males ♂ are homogametic and females ♀ are heterogametic Haplo-Diploid system there are no sex chromosomes X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome MATb9fc_c624
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ have two of the same kind of chromosomes X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing Haplo-Diploid system found in insects, such as ants and bees X-Y system found in most mammals, as well as some insects including Drosophila MATb9fc_b9f8
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system sex is determined by which chromosome is contained in the male ♂ sperm cell Z-W system males ♂ are homogametic and females ♀ are heterogametic Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one MATb9fc_6bc4
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ have two of the same kind of sex chromosome X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Z-W system females ♀ are heterogametic and males ♂ are homogametic Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers MATb9fc_7fa7
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system there are no sex chromosomes Z-W system males ♂ have two of the same kind of chromosomes X-O system found in a number of insects, including the grasshoppers, cockroaches, and crickets X-Y system sex is determined by which chromosome is contained in the male ♂ sperm cell MATb9fc_f3be
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system males ♂ only have one sex chromosome, while females ♀ have two Z-W system males ♂ are homogametic and females ♀ are heterogametic Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-Y system found in most mammals, as well as some insects including Drosophila MATb9fc_ea33
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system this system is the reverse of the system found in humans X-O system males ♂ only have one sex chromosome, while females ♀ have two X-Y system sex of an offspring depends on which of two sex chromosomes are contained with the male ♂ sperm Haplo-Diploid system only system where males ♂ have no fathers MATb9fc_ad5b
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ are homogametic and males ♂ are heterogametic X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm Z-W system this system is the reverse of the system found in humans MATb9fc_8ed3
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system males ♂ are diploid, but only have one sex chromosome X-Y system females ♀ are homogametic and males ♂ are heterogametic Haplo-Diploid system unfertilized eggs develop into males ♂ Z-W system males ♂ are homogametic and females ♀ are heterogametic MATb9fc_a1d6
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome Z-W system found in most birds, many reptiles, and some insects Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm X-Y system males ♂ have two different kinds of chromosomes MATb9fc_b896
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system females ♀ are heterogametic and males ♂ are homogametic X-Y system females ♀ are homogametic and males ♂ are heterogametic Haplo-Diploid system there are no sex chromosomes X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete MATb9fc_a908
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Z-W system females ♀ are heterogametic and males ♂ are homogametic Haplo-Diploid system unfertilized eggs develop into males ♂ X-Y system females ♀ are homogametic and males ♂ are heterogametic MATb9fc_9e9a
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system females ♀ are homogametic and males ♂ are heterogametic Haplo-Diploid system there are no sex chromosomes X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_d240
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system males ♂ are diploid, but only have one sex chromosome Z-W system females ♀ are heterogametic and males ♂ are homogametic X-Y system found in most mammals, as well as some insects including Drosophila Haplo-Diploid system unfertilized eggs develop into males ♂ MATb9fc_325d
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers Z-W system only system where sex is determined by the female ♀ egg (ovum) X-Y system males ♂ have two different kinds of chromosomes X-O system males ♂ only have one sex chromosome, while females ♀ have two MATb9fc_1f8c
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system males ♂ only have one sex chromosome, while females ♀ have two Z-W system males ♂ have two homologous sex chromosomes Haplo-Diploid system there are no sex chromosomes X-Y system sex of an offspring depends on which of two sex chromosomes are contained with the male ♂ sperm MATb9fc_d034
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system found in insects, such as ants and bees X-O system males ♂ are diploid, but only have one sex chromosome X-Y system females ♀ have two of the same kind of sex chromosome Z-W system males ♂ have two homologous sex chromosomes MATb9fc_f27d
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ have two different kinds of chromosomes X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome Z-W system males ♂ are homogametic and females ♀ are heterogametic Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome MATb9fc_9e78
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system males ♂ are diploid, but only have one sex chromosome Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome X-Y system males ♂ have two different kinds of chromosomes Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_595e
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm X-O system found in a number of insects, including the grasshoppers, cockroaches, and crickets Z-W system females ♀ have two different kinds of chromosomes X-Y system sex is determined by which chromosome is contained in the male ♂ sperm cell MATb9fc_e614
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome X-Y system males ♂ are heterogametic and females ♀ are homogametic Z-W system males ♂ have two homologous sex chromosomes Haplo-Diploid system only system where males ♂ have no fathers MATb9fc_410a
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome X-Y system sex of an offspring depends on which of two sex chromosomes are contained with the male ♂ sperm Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_0447
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ have two of the same kind of chromosomes Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete X-Y system found in most mammals, as well as some insects including Drosophila MATb9fc_399b
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system this system is the reverse of the system found in humans Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm X-O system males ♂ only have one sex chromosome, while females ♀ have two X-Y system found in most mammals, as well as some insects including Drosophila MATb9fc_43b3
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ have two different kinds of chromosomes X-O system males ♂ only have one sex chromosome, while females ♀ have two Z-W system males ♂ have two of the same kind of chromosomes Haplo-Diploid system only system where males ♂ have no fathers MATb9fc_789d
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ are homogametic and females ♀ are heterogametic Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-Y system males ♂ are heterogametic and females ♀ are homogametic X-O system males ♂ are diploid, but only have one sex chromosome MATb9fc_4978
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system sex is determined by which chromosome is contained in the male ♂ sperm cell Haplo-Diploid system only system where males ♂ have no fathers X-O system males ♂ are diploid, but only have one sex chromosome Z-W system males ♂ have two of the same kind of chromosomes MATb9fc_4b3a
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system found in insects, such as ants and bees Z-W system sex of an offspring depends on which sex chromosome is contained with the female ♀ egg (ovum) X-O system males ♂ only have one sex chromosome, while females ♀ have two X-Y system found in most mammals, as well as some insects including Drosophila MATb9fc_6819
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm X-Y system found in most mammals, as well as some insects including Drosophila Z-W system found in most birds, many reptiles, and some insects Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome MATb9fc_1e52
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ are heterogametic and females ♀ are homogametic Z-W system this system is the reverse of the system found in humans Haplo-Diploid system found in insects, such as ants and bees X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome MATb9fc_9a58
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system unfertilized eggs develop into males ♂ X-Y system males ♂ have two different kinds of chromosomes Z-W system females ♀ are heterogametic and males ♂ are homogametic X-O system males ♂ are diploid, but only have one sex chromosome MATb9fc_d1a5
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one Haplo-Diploid system unfertilized eggs develop into males ♂ X-Y system females ♀ have two of the same kind of sex chromosome Z-W system sex of an offspring depends on which sex chromosome is contained with the female ♀ egg (ovum) MATb9fc_8a98
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system male ♂ sperm normally contain either one sex chromosome or no sex chromosomes at all Z-W system this system is the reverse of the system found in humans X-Y system found in most mammals, as well as some insects including Drosophila Haplo-Diploid system only system where males ♂ have no fathers MATb9fc_f72d
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm Z-W system found in most birds, many reptiles, and some insects X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one X-Y system females ♀ are homogametic and males ♂ are heterogametic MATb9fc_9edd
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system unfertilized eggs develop into males ♂ X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome Z-W system found in most birds, many reptiles, and some insects X-Y system sex of an offspring depends on which of two sex chromosomes are contained with the male ♂ sperm MATb9fc_202f
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing Z-W system males ♂ have two homologous sex chromosomes X-Y system females ♀ have two of the same kind of sex chromosome Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome MATb9fc_7b3f
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome Z-W system found in most birds, many reptiles, and some insects Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-Y system females ♀ are homogametic and males ♂ are heterogametic MATb9fc_1e30
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete Haplo-Diploid system found in insects, such as ants and bees Z-W system only system where sex is determined by the female ♀ egg (ovum) X-Y system sex of an offspring depends on which of two sex chromosomes are contained with the male ♂ sperm MATb9fc_6562
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system found in most birds, many reptiles, and some insects X-Y system males ♂ are heterogametic and females ♀ are homogametic X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome MATb9fc_1ef0
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system there are no sex chromosomes Z-W system this system is the reverse of the system found in humans X-Y system males ♂ are heterogametic and females ♀ are homogametic X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome MATb9fc_82f6
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one Z-W system found in most birds, many reptiles, and some insects Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome X-Y system females ♀ have two of the same kind of sex chromosome MATb9fc_da6c
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Haplo-Diploid system unfertilized eggs develop into males ♂ Z-W system only system where sex is determined by the female ♀ egg (ovum) X-Y system found in most mammals, as well as some insects including Drosophila MATb9fc_4140
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex is determined on whether or NOT the male ♂ sperm contains a sex chromosome Z-W system males ♂ have two homologous sex chromosomes Haplo-Diploid system only system where males ♂ have no fathers X-Y system males ♂ are heterogametic and females ♀ are homogametic MATb9fc_75b8
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ have two homologous sex chromosomes X-Y system females ♀ have two of the same kind of sex chromosome X-O system males ♂ are diploid, but only have one sex chromosome Haplo-Diploid system unfertilized eggs develop into males ♂ MATb9fc_b292
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system found in a number of insects, including the grasshoppers, cockroaches, and crickets X-Y system sex is determined by which chromosome is contained in the male ♂ sperm cell Z-W system sex of an offspring depends on which sex chromosome is contained with the female ♀ egg (ovum) Haplo-Diploid system found in insects, such as ants and bees MATb9fc_47ff
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system found in most mammals, as well as some insects including Drosophila Z-W system males ♂ are homogametic and females ♀ are heterogametic Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm X-O system males ♂ only have one sex chromosome, while females ♀ have two MATb9fc_3440
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system male ♂ sperm normally contain either one sex chromosome or no sex chromosomes at all X-Y system females ♀ have two of the same kind of sex chromosome Z-W system found in most birds, many reptiles, and some insects Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers MATb9fc_330f
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system sex of an offspring depends on which sex chromosome is contained with the female ♀ egg (ovum) Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm X-Y system males ♂ are heterogametic and females ♀ are homogametic MATb9fc_2301
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system found in insects, such as ants and bees X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ gamete X-Y system females ♀ are homogametic and males ♂ are heterogametic Z-W system males ♂ have two of the same kind of chromosomes MATb9fc_603f
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm X-Y system males ♂ are heterogametic and females ♀ are homogametic Z-W system males ♂ have two of the same kind of chromosomes X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm MATb9fc_3c89
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system there are no sex chromosomes X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one Z-W system this system is the reverse of the system found in humans X-Y system males ♂ have two different kinds of chromosomes MATb9fc_c5e3
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm X-Y system found in most mammals, as well as some insects including Drosophila Z-W system females ♀ are heterogametic and males ♂ are homogametic Haplo-Diploid system females ♀ decide the sex by choosing whether or NOT to expose the female ♀ egg (ovum) to sperm MATb9fc_cf0b
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ are heterogametic and females ♀ are homogametic Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome Z-W system only system where sex is determined by the female ♀ egg (ovum) X-O system males ♂ are diploid, but only have one sex chromosome MATb9fc_b81b
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system found in a number of insects, including the grasshoppers, cockroaches, and crickets Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers Z-W system males ♂ have two of the same kind of chromosomes X-Y system females ♀ are homogametic and males ♂ are heterogametic MATb9fc_ecb4
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one X-Y system found in most mammals, as well as some insects including Drosophila Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome Z-W system males ♂ have two homologous sex chromosomes MATb9fc_1249
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome Z-W system sex of an offspring depends on which sex chromosome is contained with the female ♀ egg (ovum) X-Y system sex is determined by which chromosome is contained in the male ♂ sperm cell MATb9fc_e58c
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system found in most mammals, as well as some insects including Drosophila Z-W system males ♂ have two homologous sex chromosomes X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome MATb9fc_aa72
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system only system where males ♂ have no fathers X-O system males ♂ only have one sex chromosome, while females ♀ have two Z-W system males ♂ have two of the same kind of chromosomes X-Y system males ♂ have two different kinds of chromosomes MATb9fc_01e6
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Haplo-Diploid system found in insects, such as ants and bees X-O system males ♂ are diploid, but only have one sex chromosome X-Y system found in most mammals, as well as some insects including Drosophila Z-W system females ♀ are heterogametic and males ♂ are homogametic MATb9fc_f594
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system this system is the reverse of the system found in humans X-O system found in a number of insects, including the grasshoppers, cockroaches, and crickets Haplo-Diploid system males ♂ only have one copy of every sex and autosomal chromosome X-Y system females ♀ have two of the same kind of sex chromosome MATb9fc_3e07
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ have two different kinds of chromosomes X-O system females ♀ have two homologous sex chromosomes, males ♂ have only one Haplo-Diploid system only system where males ♂ have no fathers Z-W system found in most birds, many reptiles, and some insects MATb9fc_0aa0
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
X-Y system males ♂ are heterogametic and females ♀ are homogametic X-O system sex of the offspring depends on whether or NOT a sex chromosome is present in the male ♂ sperm Haplo-Diploid system males ♂ develop from unfertilized eggs and thus have no fathers Z-W system found in most birds, many reptiles, and some insects MATb9fc_bb4d
Match each of the following sex determination systems with their corresponding descriptions.
Note: Each choice will be used exactly once.
Z-W system males ♂ have two of the same kind of chromosomes Haplo-Diploid system only system where males ♂ have no fathers X-O system sex of an offspring depends on if the male ♂ sperm contains a sex chromosome or if it is missing X-Y system males ♂ have two different kinds of chromosomes